Bread wrapping machine



` Nov. 5, 1940. L'c. GELLMAN 2,220,367

BREAD WRAPPING CHINE 2 Filed laren a. 193'? V 1o shuts-sheet 1 fm 692mm/ INVENTQR. WW i, v HIS-ATTORNEY.

Nov. 5, 1940. c. sr-:LLMAN l 2,220,367

BREAD AwrmPPING MACHINE Filed ua'rcn a, 1937 1o sheets-sheet 2 v lsfaeb 6? elmzm/ IN VEN TOR.

BY Y

.HIS ATTORNEY.

Nov. 5, 1940. c. GELLMAN BREAD wRAP'Pme MACHINE Filed latch 8, 1937 10 Sheets-Sheet 3 l Nov. 5, 1940. l. Q GELLMAN BREAD WRAPPING MACHINE rma Haren a. 1937 1o sums-sunt 4 Nov. s, 1940.

I. C. GELLMAN BREAD WRAPPING MACHINE 1o sheets-sheet 5 Filed arch 8, V19257 .IY/5 ATTORNEY.

Nov. 5, 12940. 1. c. GELLMAN A 2,220,367

BREAD WRAPPING MACHINE Filed laren 8, 1937 1o sheets-sheet 6= Jus/del eman/ f INVENTOR 'Bi/ww y HIS ATTORNEY.

Nov. 5, 1940. 1. c. GELLMAN BREAD WRAPPIG MACHINE 10 Sheets-Sheet 7 Filed March 8, 19157 Isra@ 6. GeLLma/z/ INVENTOR. WW* Hfs ATTORNEY.

BY I.

Nov. 5, 1940.

. Yl. QGELLMAN BREAD WRAPPING MACHINE Filed uamn a. 1937 l l1o sheets-sheet' e Nov. 5, 1940.

I. C. GELLMAN BREAD WRAPPING MACHINE Filed March 8, 1937 .5f/5 ATTORNEY.

10 Sheets-Sheet 9 nlllllnl .w Illlll Nov. 5, 1940. l. c. GELLMAN BREAD WRAPPING MACIIIIIEA 10 Sheets-Sheet 10 Filed March 8, 1937 nze 6.' Gen/naw INVENT OR.

Patented Nov. 5,1940

UNITED STATES PATENT OFFICE 2.220.367 BREAD WRAPPING MACHINE Israel C. Gellman, Rock Island, Ill., assigner-to Gellman Manufacturing Co., Rock Island, Ill., a corporation of Illinois Application March 8, 1937, Serial No. 129,561

26 Claims.

This invention provides improvements in bread wrapping machines, and has among its important objects the provision of a wrapping machine of the automatic class which is relatively simple in construction, rugged, easily operated, and because ofA its simplicity and novelty in design makes possible a machine comparable in efliciency and performance with much higher priced machines.

More specific objects of the invention are the v provision of a wrapping machine adapted to handle and wrap sliced bread, and especially suitable for use with automatic slicing machines and having instrumentalities designed to convey the sliced bread in loaf outline or form, transfer the sliced bread .in loaf form to a wrapping mechanism, seal the wrapping, and deliver the wrapped loaf to a. discharge end of the machine.

Viewed from another aspect, the invention provides a novel combination of automatic slicing and wrapping machinery in which the wrapper has a special conveyor adjustable for cooperation Withautomatic slicers of various speeds and adapted to pick up the sliced bread in loaf form and deliver the same in timed order to the wrapping mechanism without the necessity of any adjustment of the speed of the slicer or need 'for any special linking mechanism whatever.

Yet another feature of the invention resides in the fact that the .bread is not touched by human hands from the time it enters the slicing `machine `.until it leaves the wrapper in wrapped condition.\ 1 y Other novel aspects of the invention both in the details of its construction and operation will appear as the following specification develops in view of the drawings, in which:

Fig. 1 is a (left) side elevation of the 'wrapping machine and a cooperating slicing machine;

Fig. 2 is a side elevation of the wrapping machine of Fig. l and viewed from the right side;

Fig. 3 is a top plan view of the wrapper and part of the slicing machine;

Fig. 4 is a. horizontal sectional view of the wrapping machine, taken along the lines 4 4 of Fig. 1;

Fig. 5 is an enlarged vertical section, taken along the lines 5-5 of Fig. 3, viewing the machine from the left side;

Fig. 6 is an enlarged vertical section similar to Fig. 5 `but viewing the machine from the right side;

Fig. 7 is a vertical section viewing the machine from the front, and is taken along the lines 'l-T of Fig. 6;

trol lever and control mechanism;

Fig. 9 is an enlarged operating detail showing the main drive shaft and clutch, together with a section of the control mechanism shown in Fig. 8, and taken along the lines 9-9 thereof;-

Fig. l0 is an enlarged operating detail showing the clutch sprocket for the master control mechanism, and is viewed from the inner side of the machine from line |0-l0 in Fig. 7;

Fig. 11 is an enlarged perspective fragment showing the juncture 'of the Slicer with the conveyor;

Fig. 12 is a perspective fragment of the conveyor, looking upwardly at the conveyor chain and driving pawl;

Fig. 13 is an enlarged fragmentary perspective from the top;

Fig. 13a is an operating detail of the presser bar mechanism for the paper tensioning'means;

Fig. 14 is a fragmentary plan view of the heating element and lateral adjusting means therefor (lines I4--l4, Fig. 13); i

Fig. 15 is a schematic sectional view illustrating some of the steps of the wrapping operation;

Fig. 16 is a schematic showing of the bread being elevated against the wrapping paper;

Fig. 17 is a schematic sectional view of the bread in elevated position and partially wrapped;

Figs. 18 and 19 are also schematic views showing the final stages of the wrapping operation;

Figs. 20 to 23, inclusive, .illustrate schematically the several folding steps in the wrapping operation; Y

Fig. 24 is a fragmentary side elevation of an automatic paper feed;

Fig. 25 is a vertical fragmentary section of the mechanism of Fig. 24 and including the cutting means;

Fig. 26 is a fragmentary front elevation partly in section, of the manual paper feed operating lmeans, and is taken along the lines 2li-26 of f of the main and inner wrapping carriages, viewed Fig. 32 is an enlarged fragmentary detail of the knife mounting, taken along lines 32-32 of Fig. 29; A

Fig. 33 is a fragmentary side elevation of the automatic paper feed and driving means therefor;

Fig. 34 is a'fragmentary top plan view, partially in section, or the paper roller and power drive therefor, and taken along lines 34--34 of Fig. 33; while.

Fig. 35 is an enlarged detail of the segmental driving gear and ratchet clutch therefor, the view being taken along lines 35-35 of Fig. 34.

By Way of general preliminary description, the wrapping machine shown in Fig. 1 is used with any suitable form of slicing machine 25 having, for example, a gravity feed chute adapted to feed the bread against vertically reciprocating slicing knives and discharge the sliced bread in loaf outline at the lower end or mouth 25 of the trough or chute for transfer to intermittently operable conveyor 21, which serves to deliver the bread still in loaf form to a vertically reciprocable elevator 28 which in turn elevates the sliced loaf to the wrapping level and against a lsheet of wrapping paper manually (or automatically) positioned from the stack slide 29 above the elevator, in such manner that when the elevator has reached the limit of its upward` stroke the loaf will be partially wrapped, having been pressed against the paper so as to cause the latter to be. folded about the' top and two sides thereof. A special driving mechanism, which includes a system of cams and levers disposed for co-operationv in timed` relation to effect the movement of bread in steps from the receiving to the discharge end of the machine, thereafter effects the movement of a main wrapping carriage mechanism 30-88 and associated folding wings |33 so as to effect further folding of the Wrapper about the bread and thereafter move the wrapped loaf between terminal fold plates |11 and thence through a heating device I19-I19' to seal the wrapper.

As best shown in Figs. 6 and 7, the power unit for the wrapper includes an electric motor .3I` which is preferably of the type having a selfenclosed speed reducing unit, and which is suitably secured to the main frame 24 of the machine. The drive shaft of the motor 3l is connected with a main cam or drive shaft 32, also supportedby frame 24, by means of a sprocket gear 33 and a ratchet clutch 34 (Fig. 9), and a sprocket chain 35 suitably protected by an apron or shield 36 (Figs. l, 2, and 6).

The main controls comprise a motor switch, heater-switch, and pilot-light unit 31 conveniently located on the main frame 24, and a manually operable master control lever 38 (Figs. 1

and 8).

The clutch mechanism 34 includes a ratchet gear 39, which is attached to the sprocket 33 (Figs. 'l to 10, inclusive) and rotates continually with the latter when the motor 3l is energized. 'I'he main cam or drive shaft 32 has a clutch plate 40 ailixed thereto adjacent the ratchet gear 39, and pivoted on thisV clutch plate, as at 4|, is

is engaged by the tongue 48 of a clutch operating 5 arm 49 pivotally mounted on a clutch rod 59 between a pair of opposed brackets 5l on a wall of the housing 46. The clutch rod 50 is suitably linked with the master control lever 38 by means of the connecting rod 52, in such manner that a depression of the lever (counter clockwise, Figs. 7 and 8) will pivot the clutch rod 58 and the clutch operating arm 49 thereon so as to :anse the tongue 48 of the latter in the slot 41 of the clutch bar 44 to move the clutch bar out ,of engagement with the end portion of -the pawl 42 (to the right in Fig. 9), thus permitting` the spring 43 to move the pawl 42 into latching engagement with the ratchet gear 39, whereupon the rotating sprocket gear willtransfer its m0- tion through the ratchet gear and clutch plate 40 to the main cam or drive shaft 32.'

To stop the wrapping mechanism, it is merely necessary to permit the clutch bar 44 to return to the position shown in Figs. 9 and 10, in which it lies in the path of the revolving pawl 42, whereupon the end portion of the pawl will again be borne -against the clutch bar 44 and disengage the ratchet wheel 39 and thus free the clutch from the driving sprocket 33.

The foregoing clutch of the 'drive structure constitutes one of the important features of the invention since it provides a means for smoothly controlling the' intermittent operation of the conveyor and wrapping mechanism from a central drive shaft, the power means for which is constantly energized and ready for instant driving connection with the central shaft.

Attention is called to my U. S. Patent 1,951,605, for a bread slicing machine, in which is shown an automatic clutch device the operation of which is controlled by movement of bread or the like, and it is observed that the present invention contemplates the application of such a clutch control means for operating the clutch of the present mechanism, that is to say, it is contemplated that the present clutch control may be operated by the movement of sliced bread by the means shown in said patent.

The conveyor ,The conveyor structure 21 and driving means is best shown by convenient reference between Figs. 4, 5, 6, 11, and 12. As seen in Fig. 4, the conveyor` `includesa stationary shelf or platform 53 which is secured along its longitudinal extremities to angle brackets 54, having longitudinally extensive slots 55 (Figs. 5 and 12) through which extend wing nut set screws 55 adjustably securing the conveyor brackets to supporting brackets 51, which are in turn attached to the frame 24 of the machine. As seen in FIB. 11, the outer most (left-hand) extremity of the conveyor shelf 53 is suitably spaced from an endwise cross arm 58 attached to the angle bracket 54, to adjustably receive an adjustable platform having a depending lip 59 which hooks on to the cross bracket 58 and the outer extremity of which is adapted to rest on the discharge chute 25 of the slicer.

A pair of longitudinally extensive side rails 60 are provided to guide the bread from the' slicer along the conveyor and are secured for adjustment laterally of the conveyor by means of brackets 6| (Figs. 4 and 1l), which have elongated slots through which extend wing nut set screws attaching the rails to brackets 62,

which in turn are attached to the angle brackets 54 of the conveyor frame.

Adjacent the longitudinal extremities of the Aconveyor are a pair of spindles- 63 rotatable in the angle brackets 54 and each having a sprocket gear 64 at their outermost extremitiesadjacent the brackets 54 (see also Fig. 5), the conveyor platform 53 being slotted as at 53' to accommodate the sprockets and a pair of sprocket'chains 65, which are extended between the sprocket gears of each spindle on both sides of the conveyor.

It should be particularly observed in Figs. 6, 11 and 15 how the conveyor structure cooperates with the slicer to pick up the sliced .against the bottom of the loaf, the latter is tilted into the position B in Fig. 15, and thereafter the. advancing loaves from the slicer push the raised loaf forward until a following conveyor bar moves against the back of the loaf and carries it along on the platform. Meanwhile succeeding loaves are pushed forward by the slicer .into position to bekraised and picked up by the conveyor bars.

At suitable intervals, the conveyor chain 65 is provided with links having an offset portion 66 for engagement with cross bars 61 extended between these links on both chains, in such manner that the cross bars or conveyor bars 61' are moved longitudinally over the conveyor platform 53 to slide sliced loaves between the rails from the extremity adjacent the discharge end 26 of the slicer to the extremity adjacent the elevator 28.

Novel driving means for the conveyor chains are provided in the form of a reciprocating arm 68 (Figs. 6 and 12) having at its outermost or lefthand extremity a spring-urged pawl 69, positioned beneath one of the conveyor chains 65 in such manner that the pawl finger 69 thereof is engageable with the open portions of the links of the sprocket chain. The outermost or right hand extremity of the conveyor driving arm 68, as seen in Fig. 6, rests in a slot in a cross bearer 10 of the frame 24 and at its lefthand extremity as seen in Fig. 6, the driving arm 68 is pivotally connected as at 1I, to an arm 12 which in turn is attached to a tandemv the pivotal connection of the main driving arms H0 with the outside drive plates |65 by means of a; crank arm 14, the drive plates |65 being rotatable with the main drive shaft 32, andy pawl 69 being adapted to slip backwardly (to the left in Fig. 6 and to the right in Fig. 12) over the conveyer chain 65, and to engage a link of the chain upon its forward movement (to the right in Fig. 6) so as to run the chains over their respective sprocket gears 6I, and cause the A crosswise conveyor bars -61 to bear against the bread supported between the side brackets or rails 68 and move such bread toward the ele-j vater. i

In order to adjust theV conveyor for thefpurpose of transporting loaves of 'varying dimensions for proper receiving position relative to the elevator 28, it is merely necessary to loosen the wing bolts v56 (Figs. 4 and 12) and shift the entire conveyor frame longitudinally ltoward orawayfrom the elevator, the result being to space the inner extremity of the'conveyor shelf relative to the elevator.

The reciprocation of the conveyor driving arm v68 through its driving connection vwith the main cam or power shaft32 is thus effective to cause the pawl 69 to engage the link chain.

65 and. move loaves nf bread in intermittently .timed steps toward the elevator 28, to be transferred to the latter as shown schematically by step D in Fig. 15, forfelevation toward the wrapping level of the wrapping carriages to initiate the actual wrapping operation in a manner later to be described in detail.

The elevating mechanism One of the novel features of the present "invention resides in the mechanism for transferring sliced bread in loaf outline or form fromV the innermost extremity of the conveyor shelf 53 onto an elevator 28 (Figs. 5, 6, and 7, which serves to raise the bread against a wrapping paper in a manner to effect a partial wrapping of the loaf. The elevating `means may be said to constitute an initial wrapping means.

The elevator 28 includes a vertical post orl rod 28' supported for reciprocal vertical movement in a yoke-shaped elevator bracket 16 attachedto the frame 24 on a. cross arm 16' thereof. An elevatortable 11 is supported by means of a depending -boss and pin embracing the upper extremity of the elevator rod 28', and the table `is provided at its sidewise extremities with a pair of end plates 18 adapted to retain the sliced bread in loaf form for its transit upwardly toV the wrapping level and into the position shown, for example, in Fig. 6, or schematically in Figs. 15 and 1'1.

An elevator arm 19 is pvoted as at 80 (Fig. 6), to the frame 24, and has a bifurcated end portion 8| which embraces a reduced portion.

82 of the elevator shaft or rod 28'. Intermediate its extremities, the elevator operating arm 19 is provided with a laterally extended cam arm 83 having at its uppermost extremity a cam rider 84 which bears against a. cam 85 rotatable Initial wrapping operation and mechanism In the embodiments of Figs. 3, 5, and 6 for example, the wrapping paper 86 is adapted to be fed manually downa chute 81 positioned at the receiving end of the machine, the paper being supported in a pack on pegs in such manner ent sized loaves.

that one sheet at a time may be torn from the pegs and fed down the arcuately-shaped chute beneath the inner folding carriage 88 and onto spaced rails 89 (Fig. 13 also) against stops 98 thereon, the space between the rails 89 being adequate to accommodate the largest dimension .of loaf and representing the wrapping level to which the elevator 28 rises, so that a loaf carried on the elevator is positioned a distance equal to its height above the plane'or level ofthe rails 89, and when the wrapping paper is positioned on the rails as aforesaid, it will be apparent that the elevator will cause the bread carried thereby to bear against such paper and tend to lift the paper a distance from the rails 89 substantially equal to the height of the loaf of bread.

The initial wrapping operation is effected by holding a positioned paper in a tautened but yielding condition over vlthe region immediately above the upper terminal position of the elevator table 11 by means of a tautening mechanism which includes apair of rollers 9| and 92 extended crosswiseof the machine and parallel with the laterally extending edges of the elevator table 11. The roller 9| is. adjustably supported on brackets 93 which are secured by means of wing bolts through elongated channels 98 in the upper parts of the frame 2l in such manner that the distance of the roller 9| relative to the roller 92, which is secured to the frame 24 but is not adjustable, may be varied to accommodate diier- The wrapping paper in its movement down the chute 81 passes beneath these rollers toward the stop 98 to rest upon the longitudinally extensive spaced rails 89 and, as shown in Figs. 5 and 6, each of the rails 89 is provided with a co-extensive presser bar 95 which is supported by a spring mechanism in longitudinal extensive edge slots 89', shown in detail in Figs. 13 and 13a, for movement toward and against the rollers 9| and` 92 so as to rmly press the wrapping sheet against the lower portions of these rollers.

In Figs. 13 and 13a it ,will be seen that the 'presser bar 95 is secured at its underside to the upper extremity of a plunger 96 movable vertically within a cylinder 91 fixedly secured to the `rail 89, the cylinder having an interior compression spring 98 which bears against the lower end of the cylinder and against an intermediate collar portion 99 on fthe rod 95 so as to urge the latter upwardly, and consequently urge the presser bar 95 in the same direction. With the spring y 98 normally in extended position, the presser bar 95 will bear against the .lower surface of both rollers 9| and 92 and grip any wrapping paper positioned therebetween.

In order to maintain the presser bars 95 in lowered position against the tension of springs 98 so as to permit the wrapping paper to move over rails 89 and engage stops 98, an arm |88 is pivoted as at-|8| to each of the rails 89 and is also provided with a depending extension |82 engageable with an odset bracket |83 and which is secured to the lower part of the plunger rod .98. The arms |88 are interconnected by a transverse tandem bar |88 which extendsacross the `machine beneath a supporting bail |85.

The bail |85 is extended crosswise of the machine and is movable in'angular-slots |88 in the side wall portions of the frame 2.8 by means of lever arms |88, drivingly connected with links |82 which in turn are pivoted to the frame and are reciprocated by alateral stud portion. which rides an interior y'camtrack on the outer driving disk |65 on the right-hand side of the machine, as seen in Fig. 2 for example.

The direction of movement of the bail |85 is first upward and then horizontal, and during the upward movement pressure on the tandem bar |84 is relieved and the arms |88 are permitted to pivot upwardly under the urgence of the springs 98 in the cylinders 91, which also raise the plunger rods 96 and move the presser bars 98 against the rollers 9| and 92, thus tautening the paper for the initial wrapping movement.

It will be observed that the supporting bail |85 is angular in cross section and has a horizontal and vertical wall portion. As this bail moves through the horizontal part of its advancing motion, the horizontal surface of the. bar moves under the longitudinal corner of the loaf which rests upon the elevator as the latter begins its downward descent, thus supporting one side of the elevated loaf and also serving to partially fold under one of the longitudinal edge portions of the paper which is partly folded about the raised loaf at the time the elevatorbegins its descent.

Intermediate wrapping mechanism -The elevator table 11, together with the bread load carried thereby, having been-.elevated to the wrapping level so as to bring the upper surface of the bread against the tautened wrapping paper in a manner to cause the latter to rise with the loaf and be partially folded about the same at the time of the terminal movement of the elevator, the. intermediate wrapping mechanism comes into play and includes the main wrapping carriage 38 (best seen in Figs. 3 and 13) and an inner carriage 88, both of which reciprocate in the horizontal plane for the purpose of eecting removal of the loaf from the elevated table and effecting the intermediate folding steps, preparatory to moving the wrapped loaf toward the discharge end of the machine.

The elevator table 11 remains momentarily at the wrapping level at the terminal part of its upward stroke (Fig. 6) as explained in conjunction with the description of the cam drive mechanism therefor,A and during this momentary hesitation the driving mechanism effects the movement of both the'main carriage 38 and the inner carriage 88 in the same direction (left, Fig. 6).

.The main carriage 38 comprises a pair of lon- .gitudinally extensive bars or runners H3, supframe 24 above the wrapping level (seeFlg. 3

particularly). Slidable on the runners ||8 are the side arm portions of the main carriage including an arm ||5, and an angularly disposed arm I I6 on the right side of the machine, as seen in Fig. 13, and the single arm |5 (Fig. 3) on the lefthand side of the machine and corresponding to the companion arm ||5. The arms ||5 and ||5f each have a terminal bracket portion ||1 and`||1' having a central bore which embraces the runners |I3, .the opposite (left-hand) extremities of each of the arms ||5 and ||5' being adjustably attached by meansof boltsextended .through elongated slots ||8 therein, into similar sliding brackets |I9 and ||9 which are interconnected by means of across bar |28 (Fig. 3), the latter being adjustable in a direction lon- 'y gitudinally of the machine and toward and away from the inner folding carriage 88 by means of the boltsl through the elongated slots |18, thus adjustably spacing the right-hand sliding bracket portions ||1 of the carriage arms ||5 and ||5' from the left-hand brackets of the carriage, ||8

2,220,367 and H9', for purposes later tobe described. 'I'he forward sliding brackets ||1 and ||1 rotatably support a second cross arm or rod |2| in journals |22 and |22', forming part of the sliding bracket structures ||1 and ||1'.

The main can'iage 30 is reciprocated` on the runners I I3 by means of the long outside driving arms which are drivingly connected to the carriage by links |23 pivoted, as at |24, to the that the angularly-shaped carriagebracket ||6 is provided with a descending horizontal surface portion |30which serves asl a cam surface for a runner on a lever arm. |3| secured to a pivoted cross rodi|32 which carries a pair of spaced folding wings |33, which are pivotally attached for movement about a horizontal axis to arms |34 clamped to the cross shaft |32. 'I'he folding wingsV |33 are maintained in adiverged position relative to one another by means of coil springs |35, which effect a' yieldable connection between the arms |34 and their juncture with the' wings.

At the outermost or right-hand extremity of the cross rod |32 is a small lever arm |36 from which extends a spring |31, anchored to the wall of the laterally extended side wing |38 of the main frame structure in such Amanner as to urge the shaft |32 and hence the extended folding wings |33 thereon in a downward direction,`

the cam arm |3| riding onthe upper horizontal reach ||6 of the bracket I|6, serving to.

maintain the wings |33 in raised position against `the tensionv of. the spring |31, and the wings being permitted to descend when the cam arm |3| rides downwardly onto the descending cam surface |30 as the main carriage moves rearwardly or toward the wings.

-The inner folding carriage includes a main bearer plate88' having depending legs |39 at its corner portions, and these legs are provided with rollers |40 slidable in elongated slots |4| in the upper side wall portions of the frame,

beneath the cross rod l32` (Figs. 5, 6, and '13) in which the carriage is adapted to be reciprocated by meansof' angular driving links |42 studs |41 riding on theinterior'cam tracks |48 ofthe cams 15,v and it should be noted that Athe oscillatory or reciprocatory movement of both theinner folding carriage 88 and the main carriage generally indicated at 30, is governed by linkages with the main drive shaft 32 so disposed as to synchronize such movement and 'cause both of the carriages to move back and forth in a predetermined manner, the distance traveled by the main carriage 30, however, be-

ing slightly greater than that4 traveled by theinner carriage for purposes later to be set-forth. A

Y Y. It is also convenient to mention again at this juncture, that vthe to and fro movement of the main' carriage effects a'. corresponding raising and lowering of the folding wings |33:

Secured to a yoke-like bracket |49 is a folding or tucking plate |50 (Fig. 13) constituting a. first bottom fold and supporting means and which is supported by a pair of tandem rods` |5| slidable in a bracket |52 which is secured to the inner carriage plate 88. The platel |50 extends beyond the forward edge of the carriage 88 and is movable in a direction outwardly of the carriage against the tension of compression springs |53 on the rods |5|, and which are adapted to normally hold the. folding plate inv avposition inwardly or toward the forward edge of the carriage. A pair of buffer'springs |54 are also provided on the rods |53 intermediate the brackets |49 and |52, to take up the impact of the plate during its return movement toward the carriage bearer 88 under the urgence of the compressed springs |53 when l extending into lateral slotsl |51 in the carriage (Figs. 3 and 13), and these wings Y |55 flank the centrally located supporting bracket |52 for the folding or tucking plate- |50 on the carriage and are movable toward Vand away from the center of the carriage to accommodate varying lengths of loaf. The vertical folding wings |55 are provided with arcuate laterally extensive folding-faces |58 (Fig. 13), and above the latter with horizontally extensive slightly curved foldying fingers |59, the function of which will be described more particularly in connection with the actual folding operations 'of themachine, -it being observed, however, that the fingers |59 are adapted to slide against the outer surfaces oft the movable folding wings |33 during the forward movement of the carriage 88 (see Fig. 17 for example).

As shown' in Figs. 3 and 7, the cross rod |2|| of the main carriage 80 carries a centrally depending and pivotable latch finger |60, the function of which is conveniently described with particular reference tothe aforementioned figures, and also/,to Fig. 13, although it is not shown in the latter. As the main carriage moves rearwardly or to the left, as seen in Fig. 3, the de` pending latch finger |60 rides over a latch stud |6| on. the bracket |49 on the inner carriage,

and upon the forward 4or return movement of` the main carriage the overstroke of the latter causes the depending finger |60 to bear against` the stud |6| and draw the folding or tucking plate |50 forwardly against the tension of the springs |53, at the time the carriage 88 reaches the, end of its advance toward an elevated loaf; The, disposition of the tucking plate |50 relative to the elevator table '|1 is such that when the latter is in raised position and the plate |50 is drawn forward by continued retreat of the main carriage as aforesaid, the tucking plate is moved beneath thevelevated loaf and also serves to fold or tuck in the vertically depending remnant of the wrapping paper, as reprebottom fold 'and supporting means and whichextends crosswise of the machine, is moved forwardly in the angularly disposed slots |06 in the frame, and the horizontal and vertical surface portions of the bail t against the elongated corner portions of the loaf on the side thereof opposite to the tucking plate |50, thus folding in the other depending remnant of the wrapper and at the same time cooperating with the tucking plate to support the loaf independently of the elevator table 11, which has begun its descent in timed relation to the forward or loaf engaging movement of both the tucking plate |50 and the bail |05.

As seen in Figs. 5, 6, and 7, the bail |05 is reciprocated by means of a pair of cam arms |62 pivoted at one extremity to the main frame, as at |63 (Fig. 7), and at their other extremities to links |64 attached to the bail |05, the cam arms .|62 each having cam studs; |01 whichrun on interior cam tracks |66 on the inside of the outer drive plates |65 on the main shaft 32.

When the carriage 88 moves forward to advance the 'tucking plate |50 toward the loaf and support the latter in conjunction with the simultaneously positioned bail |05 for additional support of the loaf after the elevator begins its descent, the stationary folding wings |55 serve to eiect a partial fold of the vertically disposed end portions of the wrapper by engagement of the arcuate, lateral folding surfaces |58 with a portion of the vertical end folds in the manner represented in Figs. 20 and 21, the initial end fold having been made by the pivoted folding wings |33, and as the main carriage 30 continues its retreating overstroke the depending latch finger |60 is pivoted against the tension of a coil spring |61, (Fig. 7) anchored to the main frame and to the extremity of a small lever arm |61 at the left-hand extremity of the cross rod |20,

for movement. transiently out of engagement With the latching stud |6| on the folding plate |50, thus permitting the latter to be snapped back to its initial position relative to the carriage 88 by means of the springs |53, the released linger |60 serving to kick the loaf onto a terminal wrapping table |68 (Figs. 5, 6, and '1), which is pivtally supported at its right-hand extremity upon an unthreaded portion |10 of the main adjusting rod |69, which is extended laterally across, and is rotatably supported in, the main frame 24. The free end of the terminal wrapping table |68 terminates just to the right of the bail bar |05 in its lowered position, and rests upon' portions of the main frame in proper vertical relation to the bail, so that the loaf may be moved from its temporary support on the tucking plate |50 and the bail onto the table |68 by the continued forward movement of the depending latch arm |60 after the same has disengaged the latching stud |6|.

In order to assure uniform advancing movement of the loaf, the latch arm |60 is ilanked at suitable distances by a pair of iixed depending pushing fingers |16, which cooperate with the central finger |60 to push the partially wrapped loaf across the terminal wrapping table as the main carriageapproaches the end of its forward stroke, to effect the nal wrapping operation (Figs. 3, and 1'7 to 19).

As the loaf is moved onto the table |68 from the tucking plate |50 and the bail |05, it is completely Wrapped save for small`tail folds, shown in Fig. 22, and these are finally turned in by a pair of vertical, terminal folding plates |11, each of which Ahas an ascending arcuate track |18 (Figs. 5 and') opening at its lower extremity in the region adjoining the free lateral edge of the terminal'folding table |68. As the loaf is kicked or moved onto the table |68, the tail folds seen in Fig. 22 ride into the ascending track |18 and are folded upwardly as the loaf continues its forward movement by the urgence ofthe depending fingers |60 and |18, until the tail folds reach a substantially vertical position relative to the ends of the loaf and are drawn out of the fold tracks |18, at which time the loaf has been moved to a point opposite the heater table |19 at which time the forward movement of the main carriage ceases.

At this juncture, the forward cross rod |2| is pivoted in an anti-clockwise direction, as seen in Fig. 6, by means of a cam rotatable with the shaft and having a first upper cam face |8|v which rides against the lower vertical edge portion of a bar .|82 pivoted, as at |84, on the outer extended portion of the frame wing |38. The lower middle edge region of the bar, |82 has an arcuately gauged portion |82' in which the cam surface |8| of the cam |80 rides when the main |82. The bar |82 is urged pivotally away from 30 the wall |38 by an adjustable spring |85, and is pivoted against this spring when the cam. |80 rides against the bar and the cam is pivoted into dotted line position (Fig. 13), the spring means |85 thereafter moving the bar away from wall |38 to assure positive engagement .of the cam surface |88 with the bottom edge of the bar |82 as shown.

The effect of this movement of the cam |80 during the rearward motion of the main carriage, is to pivot the cross rod |2| in an anti-clockwise direction and move a pair of pusher ngers |83 from their substantially horizontal position, into `which they are urged by a coil spring |2|' on the shaft |2| and anchored thereto and to the frame. journal or bracket |22 thereof, to a substantially vertical position when the carriage reaches the position corresponding to the dotted line representations of the cam |80, as seen inFig. 13. The pusher fingers '|83 move downwardly into engagement with the loaf which was pushed by the latch linger |60 and the anking pushing iingers |16, to the forward extremity of the terminal wrapping table |68 preparatory to being moved onto the heater |19, and as the main wrapping carriage 30 continues its forward or return movement, theloaf engaged by the downwardly pivoted pushing iingers |83 is moved onto the heater table |19 beneath a presser shoe |90, which is resiliently attached by means of a spring strap |9| to a cross member |92 extended between the carriage brackets III, the shoe serving to press the wrapped loaf firmly against the main heater table ns so that the bottom sides or the commonly used waxed 'wrapper may be sealed.

The c'ross arm |92 may be raised and lowered in a vertical direction by means of the cranks |93 which are threaded into the carriage support brackets IM on both sides of the frame,

and in this way the tension of the shoe |90 upon 70 the loaves as they pass therebeneath onto and o 0f the terminal folding table |68 and the heater |19, may be adjusted.

'I'he end folds of the wrapped loaf are likewise sealed simultaneously with the bottom por- ".5

of threaded engagement with the laterally extensive adjusting shaft |69 (Fig. 7 especially),

the threading of which is reversed on the opposite sides of its central portion ,embraced by the` tail of the terminal wrapping table |68, such that by revolution of the crank |1| on this shaft the` reverse threading will move the supporting brackets |94 correspondingly away from on-toward the center of the heating table |19.

After the forward pusher arms |83 have moved a wrapped loaf onto the main heating table |19 and between the yielding vertical heater plates |19', subsequent loaves act to push the loaf on the heater table 'off onto the delivery rack |95 and between a pair of side rails |96 thereon. These rails |96 are likewise adjustable laterally of the path of travel of the bread, and are con-` nected at their innermost extremities |91 with the end heater supports |94 and at their outermost portions with movable brackets |98 threaded onto a second lateral adjusting shaft |14. The second adjusting rod |14 has a sprocket gear |15. at its right-hand extremity,I as seen in Fig. 3,' and is connected with the main lateral brackets |98 and the side rails |96 through the chain drive |13.

Mechanical pape1- feed In Figs. 24 to 31 is shown a modied form of paper advancing and cutting mechanism which comprises, as seen in Fig. 24, a pair ofy substantially triangularly-shaped upright brackets 200 attached to the main frame-24 of the wrapping machine on either yside thereof, at a point adjacent the juncture of the manual feed chute 81 with the frame, `the chute 81, of course, being removed when the automatic or semi-automatic form of feed is used.

-A pair of paper rolls 20| are supported on rollers 202, which are cradled in slots 203 cast in the upper corner portions. of 'the frame 200. The paper webs 204 may b oth be fed over an idling roller 205 journaled between the brackets 200 and thence between a master feeding roller 206, and presser rollers 201 likewise'journaled` between the brackets 200 (Fig. 25). The presser :rollers 201, however, are provided with an eccentric journal 208 pivotally supported onvv the brackets 200 and provided with a handle portion 209 and a set screw 2|0, by means ofwhich the several rollers 201 may be pivoted toward and away from the master feed'roller 206 and locked in adesired position. J The presser rollers 201 are spaced apart suitably and extend into a plurality of edgewise slots 2|| (Fig. 26) formed `in aA feeding apronf2|2 which 1s anchored at its rearward or left-hand extremity as seen in Fig. 25, to a cross member 2| 3 andwhich extends arcuately downward beneath the knife supporting bracket 2 I4 to a point confronting the rearmost edge of the stationary cutting knife 2|5 (Figs. 25,'29, and 31).

The master feed roller 206 -is provided with a gear 2I6 which meshes with a driving gear 2| 1 rotatable by a reciprocably operable crank 2|8 journaled in one of the brackets 200, and having Aan offset arm 2|9 which is adapted to abut against a movement limiting pin 220 movable in an-arcuate Aslot 22| provided in the frame 200. The pin 220 may comprise two threaded portions so that it may be clamped or screwed into position in the arcuate slot and thus stop the movement of the crank 2| 8 at any desired position. In this way the distance which the master roller which will be fed from theA rolls 20|.

The fragmentary elevation shown in Fig. 27

illustrates the crank mechanism on the inner side of themain bracket 200'an`d includes a ratchet 222 on the crank spindle, and a pair of spring-urged pawls 223 engageable with the ratchet and which permit the initial movement of the crank 2|8 .in an anti-clockwise direction', but which effect a driving engagement with the gear 2|1 when the crank is returned in a clockwise direction (Fig. 24) for eachfeeding operation.

The knife supporting structure includes a yoke-shaped frame 224` (Figs. 28 and 29) and the left-hand Afree ends of which are pivotally mounted, as at 225, to a cross bearer bracket 226 which extends between the upright sides of the main supporting brackets 2 00, and which is engaged at its outermost extremities by a set screw 221 slidable in an elongated slot 228 in the support 200. A vfront bearer 229 is joined with the rear bearer 226 by longitudinally extensive straps 230 (Fig.` 29). The front` bearer 229 is slidably supported at its ends on shelves I|2 formed in frame 24 and engages the o ifset end portions 23| of the elongated rails 232 (Figs. 28 and 31) which are secured to the main longitudinal rails 89 inside of the main frame, by means of se'tscrews 233 extending through longitudinal slots 234 in the supporting rails 232. The lupturned. end portions 23I' of the supporting rails 232 t into slots in the front cross bearer 229. y

In order, to adjust the position of the knife carrier, it is simply necessary to loosen the set screws 221 (Figs. 28 and 32) and the screws 233, whereupon the rear and front bearers 226 and 229, together with the supporting rails 232, may

be moved forwardly or backwardly to any desired position.

'I'he frontcross bar of the knife frame 224, as seen in Figs. 28 to 31, is provided with a plurality of spaced, extending bosses 235, the outermost ones of which are provided with a slot in which are seated rollers '.236 engageable by cam istA Yangers 231 (as mrigs. 25 and' 31) extended from observed that the movable .knives 240 aretwo in number (Fig., 30), -being separated from one another at substantially the midpoint of the frame, and being pivotally attached to the latter theV sheet as the knife frame descends.

blade toward the centers thereof, for the purpose4 of providing an 'advancing cut across The outermost bosses 235' are provided with a vertical spring well 242 in which are seatedpart 26| (Fig. 31) which bends iown below the bottom of the front bearer 229 of the knife frame, and is secured to the latter by means such as the screws 264. The upper part 26| of this apron structure overlies a frame cross arm 265 and has adjacent its right-hand end, as seen in Fig. 31, an extensible part 262 (see also Fig. 30) slidably supported on opposite ange: members 263 screwed or otherwise attached to the bottom of the main bracket part 260.`

All of the paper feed chutes and aprons are provided with longitudinally extensive ribs 81' (chute 81 in Fig. 13), and 2|2' (on the apron 2|2, Figs. 26, 28). By this means friction resistance to the movement of the paper is reduced and at the same time the paper is stiened for more efficient feeding and positioning.

In order to prevent slippage of the wrapping paper, which is frequently a waxed paper, between themaster feed roller 206 and the presser rollers 201, the latter are driven with' and by the master roller 206 by means of gear teeth 2|1 which mesh with teeth 2|6 provided on the presser roller shaft at the right-hand interior side of the paper roll frame 200, as seen in Fig. 25. In this manner when the master roller 206 is turned by the crank 2|0 or other means, the 40 presser rollers 201 rotate therewith through the medium of the meshed gearing MBL-2H, thus assuring a positive feeding movement of the paper web.

In both types of mechanical paper feed, suit- 45 able tensioning means are contemplated whereby the tension on the paper web may be adjusted variously to assure smooth and accurate operation of the feed mechanism.

Automatic paper feed It may be found desirable to have the wrapping paper fed automatically, in which case the mechanism shown in Figs. 33 to 35 may be substituted for the semi-automatic and manually 55 powered paper feed shown for example in Figs.

24 and 25.

Referring to Fig. 33, the supporting frames 200 for the paper rolls are substantially the same as the frames or standards 200 used in conjunction 60 with the manually powered feed, and the mechanism is provided with an idling roller 205', a master roller 206', and a plurality of spaced presser rollers 201', as in the embodiment of Fig. 24, but whereas the driving gears in the latter embodiv 65 ment are positioned at the left-hand inner side of the frame as viewed in Fig. 24, the power-oped on the outer face of the standard, as at 306, and having an extended are portion 308 which is pivotally connected, as at 3|0, to a feed-'drive arm 3|2, the reciprocation of which is adapted to rotate the master roller 206 infone direction through a ratchet clutch mechanism interposed between the driven gear 300 and the roller shaft 30| (Fig. 35).

The feed-drive arm 3|2 is reciprocated by a crank arm 3|4 journaled-in the machine frame v24, and having an adjustable pivotal connection with the arm 3|2 by set screw means 3|6 slidable in a radial slot 3|1 in the crank arm, with an adjustable stop screw 3|1' threaded into the end of the arm 3|4 to adjust the length of stroke of arm 3|2 in slot 3|1, whereby the stroke of the feed arm 3|2 may be adjusted so as to feed various lengths of paper. Crank arm 3|4 is provided with a sprocket gear 3|8 over which passes a sprocket chain 320 drivenby a sprocket gear 322 on the main drive shaft 32 behind the righthand outer drive plate |65.

'Ihe ratchet clutch shown in Fig. 35 includes a plate 301 rotatable lwith the driven gear 300 on the shaft 30|, independently of the roller 208. The inner side of this plate is provided with a pair of spring-urged pawls 309, which are normally urged into engagement with a ratchet gear 3H flanked by a mate als (Fig. 34') and rotatable with the shaft 30| in such manner that the reciprocable motion of the segmental gear 304 transmitted through the gears I305-302-3tll) to the clutch plate 301"will cause the pawls 309 vto carry the ratchet 3|| with them when they move in one direction, the pawls slipping backwardly over the ratchet teeth as the gear segment moves in the opposite direction.

The master roller is also provided with a gear 2| 1b adjacent the inner face of the paper roll standard, this gear being meshed with gearing 2|6b on the presser roller shaft so as to provide for a conjoint rotation of the master and presser rollers to prevent slippage of the paper.

In other respects, the operation of the paper feed in conjunction with the automatic cutter is the same as described in conjunction with the device of Figs. 24 to 32 and hereinafter described in detail under the statement of operation.

-Detailed statement of operation Assuming that the manual paper feed of Fig. 1 is used, the machine may be set into operation by energizing the driving motor 3| by the switches on the control panel 31. It will further be assumed that a plurality of loaves of bread are being fed into the automatic slicer 25 and being discharged from the same over the discharge trough 26 thereof and onto the conveyor 21 of the wrapper. At this stage, the loaves A and C are indicated in Figs. 1 andl5 as moving onto the conveyor.

The operator will then removea wrapping paper from the stack 29 and slide the same down the chute 81 until the paper abuts the stopping pins 90 on the longitudinal rails 89 (Figs. 5 and 13) and thereafter may depress the master control lever 38, which will serve to pivot the clutch rod 50 and the lever arm 49 thereon, so as to move the clutch bar 44 away from the end of the clutch pawl 42 and permit the latter to move `under the urgence of spring 43 into engagement with the constantly rotating ratchet gear 39 movablewith the main driving sprocket 33 (Figs. 7 to 1o).

The clutch plate secured to the main drive links 14 which are attached to the outermost driving plates' |65, and vthecross or tandem bar 413 interconnecting the two drive arms will effect a reciprocatory movement of the conveyor pawl 68 through the link connection of the lat- .ter with the smaller drive arm 12 secured to the tandem bar (Fig. 4).

As the conveyor driving arm 68 reciprocates (from the position shown in Fig. 1 to the left as seen in Fig. 6) the pa'wl 69 will engage thel open portion of one of the conveyor chains 65, and move the latter in an anti-clockwise direction upon the forward movement of the arm 68 so as to cause the several conveyor bars 61, connected at their extremities to each of the conveyor chains 65, to be stepped across and around the conveyor platform 53 so as tomove the loaf indicated at C in Fig. 15, toward the elevator after the same has been pushed onto the table 53 by the loaf A'which is being conveyed from the slicer.'

The movement of the driving arm 68 being reciprocatory, it will beapparent that the loaf of sliced bread, which is maintained in vloaf outline by the side rails 60 on the conveyor, will be moved in steps toward the reciprocably moved elevator in a definitely timed relation thereto and in such manner that when the loaf reaches the innermost end of the conveyorplatform, the elevator 28 and the table 11 thereof will be in position to receive the loaf between the side wing portions 18 of the table 11.

At this juncture, the main cam 85 (Fig. 5) will present its rising track to the cam arm and riderV 5omovement through its connection with the leverV arms |64 and |62 (Fig. 7), and the reciprocatory movement of the latter eected by the cam stud |01. thereon, which rides along .the inner cam track |66 on the outer drive plates |65. As the bail |05 moves upwardly, pressure is removed from the cross bar |04 and hence from the pivoted arm |00 attached to the same, so that.

the depending nger |02 of arm |00 is raised from the offset extension |03 on the presser plunger 96.

seen in Fig. 13a, the spring 98 in the cylinder. 91 willv bear against the collar 99 on the rod 96 and effect an upward movement of the latter, and therefore of the horizontal presser bar 95 to which itis attached. As a result, the positioned wrapping paper is yieldably urged against the crosswise rollers 9| and 92, and when the elevator approaches the end of its upward stroke the loaf indicated at E in Fig. 17 will bear against the paper and carry the same upwardly with it, the tautening pressure of the presser bar, however, causing the paper to be folded down upon the vertical side walls of the loaf and thuse'ecting a partial wrapping of the bread. Prior to the movement of the elevator into its upper terminal position, the main carriage 30 moves inwardly, that is, toward the left (Figs. 3,

5 and 17) sov as to cause the depending latch Y finger |60 to engage the latch stud |6I on` the tucking plate |50, it being remembered that the main carriage moves faster than the other carriage 88 (the carriages in thisl sense being movable toward and away from each other), this movement being such that whenthe two carriages start back toward the right,. the faster'v carriage urges the latch arm |60 against the latch stud so as to pull the tucking plate in -advance of its carriage to tension the coil springs |53 with'the result -that the tucking plate is projected beneath the loaf before the carriage 30 completes its retreating movement (to the right). Meanwhile, the upright folding wings |55 on the carriage-88 will have moved across the ends of the loaf to eiect end folds and project the fingers |59 against the wings `|33 to end folds.

The elevator table 11, with the initialiywrap'ped loaf thereon,`will remain momentarily at the angular arm ||6 on the main "carriage, thus pivoting the pair of folding fins or wings |33 downwardly in substantially confronting relation. with the ends of the lo'af and beginning a partial downward fold of the projecting ends of the wrapper as indicated by step E in Figs. 1'7 and 20. The intermediate folding operations effected by the carriages and wings is substantially completed by movement of the carriage 88 close to the loaf as illustrated in Fig. 8.

-pivot the latter inwardly and effect additional Meanwhile, the elevator 28 has begun its downward descent preparatory to receiving another loaf from the conveyor, and the partially wrapped loaf just described is supported in elevated position by the underlying folding plate |50, which has served also to tuck o ne of the vertically depending remnants of the long side lof the wrapper against the bottom of the loaf` as a result of the pulling forward of this plate bythe return of the main carriage and the engagement of the depending latch finger'V |60 with lthe stud |6|. The other 'long side of 'the bread is supported in the angularly-shaped bail |05 which, at the time the elevator begins its descent,

is positioned oppositely tothe plate |50, and also effects a tucking in of the vertical remnant of the wrapper -on the long side of the loaf opposite to that folded by the tucking plate |50. (Fig.r18) As the inner carriage 88 completes its forward retreating movement, the arcuate folding surface |58 on the stationary end-folding wings |55 serves to fold in' one of the two vertical folds angled main carriage arm and pivot the movablefolding wings |3| back to normal position, as shownin Fig. 13.`

Meanwhue, the depending meh ringer lsu onv the main carriage cross shaft |20 will have slipped out of latchng engagement with the stud.

|50 and the bail |05, both of which are now re moved from beneath the loaf so that the latter will be kicked onto the terminal folding table |68 with the assistance of the similarly moving arms |16 on the shaft |20 (Fig. 19)

As the loaf moves onto the terminal wrapping table |68, there remain two end folds such as shown in Figs.v2l and 22, one in a vertical plane and one in a horizontal plane, the latter being termed the tail fold. The vertical fold impinges against the curved vertical end portion of the spaced terminal folding plates |11, so that the wrapping is in the condition shown in Fig. 22, while the horizontal or tail fold shown in this figure'subsequently moves into the ascending folding track |18, and as the loaf moves forwardly this tail fold is gradually moved upwardly until it slides out of the folding track, at which time the loaf is riding beneath the shoe |9| preparatory to moving 'onto the main heater table |19. l.

Upon the return of the main carriage to its normal forward position, the pivoted cross arm |2| will be returned to its normal position under the urgence of the coil spring |2|, which has previously been energized by the movement of the cam |80 (Fig. 13) under the cam bar |82 and the second pivoting of the shaft |2| as the tail |86 of the cam bears against the lateral plate |81. This rotation of the rod |21| upon the return of the main carriage causes the pusher fingers |83 to be pivoted downwardly against the vertical sides of the waiting loaf (Fig. 11), and moves the lat- 40 ter onto the main heating table |19 between the yielding vertical end heater plates |19' where the wax-treated paper will be sealedf-the loaf thereafter being moved from the heater onto the delivery rack |95 by the pressure of following 45 loaves (Fig. 19).

The entire wrapping mechanism maybe man-` ually operated for purposes of adjustment or the like, by means of a crank 250 (Fig. '1), which is slidable against the pressure of a spring 25| into its mainframe journal so as to cause a gear 252 carried on the spindle of the crank to mesh with the gear portion of the=lefthand (as seen in Fig. '1) drive plate |65 which, as mentioned before, is rotatable with the main drive shaft 32. Where the mechanical paper feeding mechanism is employed, the feed chute 81 is removed and the structure explained in view of Figs.- 24 to 32 replaces the chute.

The operator has merely to rotate the crank 2| 8 in an anti-clockwise direction, having pre` viously set the pin 220 to determine the length of stroke or amount of paper to be fed, and then return the crank in the opposite or clockwise direction so as to rotate the gear 2|1 through the medium of the ratchet mechanism 222-223 (Figs. 24 and 27). The result of this operation is to rotate the master rollers 206 and feed a portion of the paper web (two thicknesses being o ptionally used in the -embodiment shown) downwardly into the apron 2 |2, and thence beneath the knife cedure.

Where the automatic paper feed is used, it will be apparent that the operation of the automatic paper cutter will be the same as described in conjunction wtih the operation of the manu-- ally powered feeding means. The power takeoff and driving mechanism including the drive arm 3|2, the segmental gear 304, and the driven gear 300 being engineered to feed a desired length' of paper into wrapping position over the elevator in timed relation with the other movements of the wrapping mechanism, including the conveyor, the elevator, and the wrapping carriages.

The invention shown and described in the preferred embodiment'herein, is not intended to be limited to 4any of the precise details recited, but is to be broadly and fairly definedwithin the scope -of the appended claims.

Having thus described my invention, what I claim as new and desire to protect by Letters Patent is:y

1. In a bread wrapping machine having driving mechanism and means for holding and moving a loaf of-bread against a wrapper to effect a partial wrapping of the same, folding mechanism comprising a pair of carriages supported for reciprocable movement toward and away from a held loaf partially wrapped as aforesaid, a first one of said carriage members having a part movriage member further having a pair of spaced' upstanding plates movable across the end portions of the loaf and adapted to effect a partial folding of the wrapper-at such end portions, a pair of end-fold wings supported for pivotal movement from raised position in a direction downwardly across the ends of *aid loaf to effect a further partial fold of said wrapper at said end portions, a pair of spaced upstanding terminal fold plates each having open-ended upwardly-directed fold tracks for receiving and folding-in endwise extending folds of said loaf when the latter is moved therebetween, and .means on said second carriage for moving said loaf away from said first carriage and between said terminal fold plates to fold in endwise extending remnants of saidI wrapper as aforesaid, the said second carriage further having means operable to pivot said end fold wings into folding position uponmovement of the second carriage in the direction toward said rst carriage, together with means drivingly connecting the said reciprocable carriages with said driving .mechn anism.

2. In a bread wrapping machine having a driving mechanism, paper supporting andtautening means including spaced horizontal paper-supporting rails, paper-positioning means on said rails, roller means supported above and across said rails and above the paper supported thereon, the rails having presser bar means movable up- 

